CN216837103U - Product duplex position shifts mechanism suitable for blow embedment all-in-one - Google Patents

Abstract

The utility model relates to a product duplex position shifts mechanism suitable for blow embedment all-in-one belongs to the packing and equips technical field. The device comprises a fixed clamping jaw, a die carrier, a fixed support and a station transfer clamping plate; a fixed clamping jaw is additionally arranged between the filling station and the conveying clamping jaw, and one side of the die carrier is provided with two open-close fixed supports; a station transfer clamping plate for clamping the plate is arranged between the two fixed supports; the station transfer clamping plate comprises a first station transfer clamping plate and a second station transfer clamping plate, the first station transfer clamping plate is arranged on one side close to the die carrier, and the second station transfer clamping plate is arranged adjacent to the first station transfer clamping plate. The utility model provides a duplex position transfer mechanism, make the sheet material cooling time increase, make the product shaping in the sheet material more stable, the product percent of pass that is cut out from the sheet material is higher at the die-cutting station; thereby improving the qualification rate of products produced by the blowing, filling and sealing equipment and improving the economic benefit.

Description

Product duplex position shifts mechanism suitable for blow embedment all-in-one

Technical Field

The utility model relates to a product duplex position shifts mechanism suitable for blow embedment all-in-one belongs to the packing and equips technical field.

Background

In the production process of the blowing, filling and sealing integrated machine, the formed product needs to be separated from the plate material in the last procedure, and a single-station transfer mechanism is used in the conventional blowing, filling and sealing equipment in the prior art and is directly transferred from a filling station to a subsequent punching station; therefore, the cooling time for transferring the plate from the filling station to the subsequent punching station is short, and when the plate is transferred to the punching station for punching, the qualification rate of the product punched from the plate at the punching station is low due to the poor forming stability of the product in the plate; therefore, the technical problem of how to improve the qualification rate of products produced by blowing, filling and sealing equipment so as to improve economic benefits needs to be solved urgently in the technical field.

Disclosure of Invention

The utility model aims at solving the technical problem of improving the qualification rate of blowing encapsulation equipment to produce products and improving economic benefit.

In order to solve the above problems, the technical solution adopted by the utility model is to provide a product double-station transfer mechanism suitable for a blowing, filling and sealing integrated machine, which is arranged below a filling station and a conveying clamping jaw and comprises a fixed clamping jaw, a die carrier, a fixed support and a station transfer clamping plate; a fixed clamping jaw is arranged between the filling station and the conveying clamping jaw, and one side of the die carrier is provided with two open-close fixed supports; a station transfer clamping plate which is used for clamping the plate and connected with the fixed supports is arranged between the two fixed supports; the station transfer clamping plates comprise a first station transfer clamping plate and a second station transfer clamping plate, one side, close to the die carrier, of each fixing support is provided with a corresponding first station transfer clamping plate, and the second station transfer clamping plate is arranged adjacent to the first station transfer clamping plate.

Preferably, the two first station transfer clamping plates form a first station transfer mechanism, the two second station transfer clamping plates form a second station transfer mechanism, and the first station transfer mechanism and the second station transfer mechanism are sequentially arranged on one side of the die carrier.

Preferably, the first station transfer mechanism and the second station transfer mechanism have the same horizontal height.

Preferably, the first station transfer mechanism and the second station transfer mechanism are provided with station transfer clamping plates with the same length, and the distance between the middle positions of the two station transfer mechanisms along the length direction is equal to the distance between the center of the filling station and the center of the fixed clamping jaw; and is also equal to the distance between the center of the fixed jaw and the center of the conveying jaw.

Preferably, one side of the fixed support close to the station transfer clamping plate is provided with a hole for installing the guide sleeve, the station transfer clamping plate is provided with a guide post corresponding to the guide sleeve, and the guide post penetrates through the guide sleeve.

Preferably, the guide post is sleeved with a damping gasket and a compression spring.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model provides a double-station transfer mechanism, which increases the time required for transferring the sheet material from the filling station to the punching station, and ensures that the product in the sheet material is more stably formed due to the increase of the cooling time, and the qualification rate of the product punched from the sheet material at the punching station is higher; thereby greatly improving the qualification rate of products produced by the blowing, filling and sealing equipment and improving the economic benefit.

Drawings

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is a third schematic structural view of the present invention;

FIG. 5 is a schematic view of the present invention in different positions during operation;

reference numerals: 1. a second station plate material; 2. a second station transfer clamp plate; 3. resetting the bolt; 4. a left fixed support; 5. a first station plate material; 6. a first station transfer clamp plate; 7. a right fixed support; 8. a guide sleeve; 9. a guide post; 10. a shock-absorbing pad; 11. a compression spring; 12. a mold frame; 13. a second station transfer mechanism; 14. a first station transfer mechanism; 15. a filling station; 16. fixing the clamping jaw; 17. and (4) conveying the clamping jaws.

Detailed Description

In order to make the present invention more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings:

as shown in fig. 1-5, the utility model provides a product double-station transfer mechanism suitable for a blowing, filling and sealing integrated machine, which is arranged below a filling station 15 and a conveying clamping jaw 17, and comprises a fixed clamping jaw 16, a die carrier 12, a fixed support and a station transfer clamping plate; a fixed clamping jaw 16 is arranged between the filling station 15 and the conveying clamping jaw 17, and one side of the die carrier 12 is provided with two open-close fixed supports; a station transfer clamping plate which is used for clamping the plate and connected with the fixed supports is arranged between the two fixed supports; the station transfer clamping plates comprise a first station transfer clamping plate and a second station transfer clamping plate 2, one side, close to the die carrier 12, of each fixed support is provided with a corresponding first station transfer clamping plate, and the second station transfer clamping plate 2 is arranged adjacent to the first station transfer clamping plate. The two first station transfer clamping plates form a first station transfer mechanism 14, the two second station transfer clamping plates 2 form a second station transfer mechanism 13, and the first station transfer mechanism 14 and the second station transfer mechanism 13 are sequentially arranged on one side of the die carrier 12. The first station transfer mechanism 14 and the second station transfer mechanism 13 are the same in level. The first station transfer mechanism 14 and the second station transfer mechanism 13 are provided with station transfer clamping plates with the same length, and the distance between the middle positions of the two station transfer mechanisms along the length direction is equal to the distance between the center of the filling station 15 and the center of the fixed clamping jaw 16; and also the distance between the centre of the fixed jaw 16 and the centre of the transport jaw 17. One side of the fixed support close to the station transfer clamping plate is provided with a hole for installing the guide sleeve 8, the station transfer clamping plate is provided with a guide column 9 corresponding to the guide sleeve 8, and the guide column 9 penetrates through the guide sleeve 8. The guide post 9 is sleeved with a damping gasket 10 and a compression spring 11.

Examples

As shown in fig. 1, the utility model provides a product duplex position shifts mechanism suitable for blow embedment all-in-one, include: the device comprises a second station plate 1, a second station transfer clamping plate 2, a reset bolt 3, a left fixed support 4, a first station plate 5, a first station transfer clamping plate 6, a right fixed support 7, a guide sleeve 8, a guide column 9, a damping gasket 10, a compression spring 11 and a die carrier 12.

The connection mode is as follows: the left fixed support 4 and the right fixed support 7 are arranged on the die carrier 12, the reset bolt 3 is screwed into the threaded holes of the left fixed seat 4 and the right fixed seat 7, the guide sleeve 8 is knocked into corresponding holes of the left fixed support 4 and the right fixed support 7, the damping gasket 10 is sleeved on the outer cylindrical surface of the guide column 9, the outer cylindrical surface of the small end of the guide column 9 is arranged in the inner cylindrical cavities of the guide sleeves 8 on the left fixed support 4 and the right fixed support 7 until the large end surface of the guide column 9 is tightly attached to the left fixed support 4 and the right fixed support 7, then the inner cylindrical surface of the compression spring 11 is sleeved on the outer cylindrical surface of the small end of the guide column 9, finally the second station transfer clamping plate 2 and the first station transfer clamping plate 6 are respectively fixed on the guide column 9, in fig. 1, the second station plate 1 and the first station plate 5 are plate transfer positions in the production process of the blowing, filling and sealing equipment, and are not parts of the structure.

When the blowing, filling and sealing equipment is used for production, the plate formed in the die needs to be transferred to a subsequent punching station from a filling station, and finally, the separation of the product and the waste is realized. When the die carrier 12 moves to the position below the extrusion station, the first station transfer mechanism 14 is positioned below the filling station 15, and the second station transfer mechanism 13 is positioned below the fixed clamping jaw 16; as the die carrier 12 starts a die plate (not shown in the figure) from left to right, the left and right fixed supports are opened and closed, the first station plate 5 below the filling station 15 is clamped by the first station transfer clamp plate 6 in the first station transfer mechanism 14, the second station plate 1 on the fixed clamping jaw 16 is clamped by the second station transfer clamp plate 2 in the second station transfer mechanism 13, and the fixed clamping jaw 16 is opened; when the die carrier 12 moves below the filling station 15, the first station transfer mechanism 14 is positioned below the fixed clamping jaw 16, and the second station transfer mechanism 13 is positioned below the conveying clamping jaw 17; with the opening and closing of left and right fixed supports of a template (not shown in the figure) which is started left and right by a die carrier 12, a first station transfer mechanism 14 transfers a first station plate 5 in a first station transfer splint 6 to a fixed clamping jaw 16, the fixed clamping jaw 16 clamps the first station plate 5 (which is converted into a second station plate 1 in the next cycle), meanwhile, a second station transfer mechanism 13 transfers the second station plate 1 in a second station transfer splint 2 to a conveying clamping jaw 17, and the conveying clamping jaw 17 clamps and conveys the second station plate to a subsequent trimming process; thus, the mold frame 12 moves back and forth and opens and closes left and right according to the above-mentioned actions, see fig. 5; the whole transfer mechanism is clamped along with the left and right opening and closing of the left and right movable templates (not shown in the figure) of the die carrier 12, and spring force is used as clamping force in the whole transfer mechanism, so that products in the plates can not be damaged in the plate transfer process of the transfer mechanism.

The foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the present invention in any way and in any way, and it should be understood that modifications and additions may be made by those skilled in the art without departing from the scope of the present invention. Those skilled in the art can make various changes, modifications and evolutions equivalent to those made by the above-disclosed technical content without departing from the spirit and scope of the present invention, and all such changes, modifications and evolutions are equivalent embodiments of the present invention; meanwhile, any changes, modifications and evolutions of equivalent changes to the above embodiments according to the actual technology of the present invention are also within the scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a product duplex position shifts mechanism suitable for blow embedment all-in-one, locates the below of filling station and transport clamping jaw, its characterized in that: the device comprises a fixed clamping jaw, a die carrier, a fixed support and a station transfer clamping plate; a fixed clamping jaw is arranged between the filling station and the conveying clamping jaw, and one side of the die carrier is provided with two open-close fixed supports; a station transfer clamping plate which is used for clamping the plate and connected with the fixed supports is arranged between the two fixed supports; the station transfer clamping plates comprise a first station transfer clamping plate and a second station transfer clamping plate, one side, close to the die carrier, of each fixing support is provided with a corresponding first station transfer clamping plate, and the second station transfer clamping plate is arranged adjacent to the first station transfer clamping plate.

2. The product double-station transfer mechanism suitable for the blowing, filling and sealing all-in-one machine as claimed in claim 1, wherein: the two first station transfer clamping plates form a first station transfer mechanism, the two second station transfer clamping plates form a second station transfer mechanism, and the first station transfer mechanism and the second station transfer mechanism are sequentially arranged on one side of the die carrier.

3. The product double-station transfer mechanism suitable for the blowing, filling and sealing all-in-one machine as claimed in claim 2, wherein: the first station transfer mechanism and the second station transfer mechanism are the same in horizontal height.

4. The product double-station transfer mechanism suitable for the blowing, filling and sealing all-in-one machine as claimed in claim 3, wherein: the first station transfer mechanism and the second station transfer mechanism are provided with station transfer clamping plates with the same length, and the distance between the middle positions of the two station transfer mechanisms along the length direction is equal to the distance between the center of the filling station and the center of the fixed clamping jaw; and is also equal to the distance between the center of the fixed jaw and the center of the conveying jaw.

5. The product double-station transfer mechanism suitable for the blowing, filling and sealing all-in-one machine as claimed in claim 4, wherein: one side of the fixed support close to the station transfer clamping plate is provided with a hole for installing a guide sleeve, the station transfer clamping plate is provided with a guide post corresponding to the guide sleeve, and the guide post penetrates through the guide sleeve.

6. The product double-station transfer mechanism suitable for the blowing, filling and sealing all-in-one machine as claimed in claim 5, wherein: the periphery of the guide post is sleeved with a damping gasket and a compression spring.

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